红莲型水稻细胞质雄性不育花药蛋白质组学初步分析

采用固相pH梯度－SDS PAGE 双向电泳对红莲型细胞质雄性不育水稻(YTA)的不育系和保持系(YTB)单核期花粉总蛋白质进行了分离,通过银染显色,获得了分辨率和重复性较好的双向电泳图谱。Image Master 2D V5.0 软件可识别约1800个蛋白质点,其中差异表达的蛋白质点数为85。将其中16个差异点采用基质辅助激光解析电离飞行时间质谱（matrix assisted laser desorption/ionizaton time of flight mass spectrometry, MALDI-TOF-MS）进行了肽质指纹图分析,通过采用Mascot 软件对MSDB数据库查询,其中9个蛋白质点得到了鉴定。YTA相对于YTB有部分参与碳代谢和淀粉合成的酶缺失或表达量降低,这些蛋白质分别是ADP-葡萄糖磷酸转移酶（AGPase）,UDP-葡萄糖醛酸脱羧酶,乙酰辅酶A合成酶和二氢硫辛酸脱氢酶等。其中AGPase是参与淀粉合成的蛋白,与花粉发育密切相关。乙酰辅酶A合成酶和二氢硫辛酸脱氢酶是细胞内合成乙酰辅酶A的重要酶,而乙酰辅酶A是进入TCA循环的重要底物,乙酰辅酶A的缺乏可以导致TCA循环不能顺利进行,从而不能提供小孢子发育所需要的大量能量。YTA相对于YTB部分参与碳水化合物代谢的重要酶缺失或表达量降低,有可能导致因线粒体提供的能量不足,淀粉合成受阻,因而花粉不能正常发育。      

红莲型细胞质雄性不育性与线粒体渗透性转换

以水稻红莲型细胞质雄性不育(HL-CMS)的不育系粤泰A(YTA)、保持系粤泰B(YTB)以及杂种F1代红莲2号(HL2)的黄化苗为材料,研究了在不同pH及离子强度下线粒体渗透性转换(MPT)的发生及其差异。结果表明,YTA、YTB和HL2间MPT的发生均存在差别,不育系YTA线粒体渗透性转换孔(PTP)的开启与关闭对pH及离子强度的变化较保持系YTB和HL2敏感。HL2与YTA虽然具有相同的细胞质来源,但两者之间PTP及MPT的特性明显不同,前者MPT的变化与具有正常生理功能的YTB线粒体的PTP和MPT的发生特点与特性相似。这些说明红莲型水稻细胞质雄性不育的发生可能与其MPT的发生有关。     

红莲型细胞质雄性不育（HL-CMS）水稻不育系与保持系中3个ANTs基因表达模式的比较

探讨红莲型细胞质雄性不育（HL-CMS）水稻不育系‘粤泰A’（‘YTA’）和保持系‘粤泰B’（‘YTB’）中3个腺苷酸转位酶（ANT）基因在三叶期根、茎、叶以及不同发育时期的幼穗中的表达模式。结果表明：ANT1和ANT2在‘YTA’和‘YTB’三叶期的根、茎、叶中的表达量都较高,而在生殖生长不同时期的幼穗中表达量较低。‘YTA’中ANT1在不同时期的幼穗中表达量都较低,而ANT2的表达量到穗生长期II的幼穗才较低。‘YTB’中ANT1在生殖生长的穗生长期III的幼穗有很高的表达。ANT3的表达水平在研究的各组织中的表达都较低,在‘YTB’穗生长期V的幼穗中表达最高。相对于‘YTA’,‘YTB’中只有ANT3在穗生长期III和穗生长期V的幼穗中呈现明显的优势表达;而相对于‘YTB’,‘YTA’中ANT2和ANT3在穗生长期I、ANT2在穗生长期VI幼穗具有明显的优势表达。3个ANTs基因在HL-CMS不育系‘YTA’和保持系‘YTB’不同组织及发育时期的表达模式的差异,暗示它们可能与HL-CMS水稻不育系和保持系的发育调控有关。     

苜蓿雄性不育植株与可育植株现蕾初期花蕾蛋白质组比较

采用双向凝胶电泳对现蕾初期苜蓿雄性不育植株(Ms-4)及其可育植株(MF)花蕾蛋白质进行了分离,获得了分辨率和重复性较好的双向电泳图谱。通过ImageMaster 2D软件对Ms-4和MF银染图谱分析发现,两者在等电点5~7、分子量20~60 kD范围内蛋白质斑点分布最多,可识别的总蛋白质点数均在6 000个左右,其中差异表达的蛋白质点数为98个;进一步通过质谱分析成功鉴定了22个差异蛋白点。利用Blast2GO程序对 22个蛋白点进行功能注释和代谢途径分析发现,核酮糖羧化酶小亚基、尿苷三磷酸-葡萄糖-1-磷酸尿苷酰基转移酶等蛋白在光合作用、碳水化合物代谢、多细胞生物有机体的发育等过程中起着重要的作用,同时参与了细胞质、细胞壁等组成,并具有绑定、催化、结合和水解等功能。研究结果初步推断,在苜蓿花药发育过程中,蛋白的缺失及表达量的变化可能会使与花粉发育有关的能量缺失,物质合成发生改变,导致雄性不育。     

小麦小花高纯度线粒体的分离及其蛋白质双向电泳体系建立

应用差速离心和Percoll不连续密度梯度法分离纯化小麦三核期小花线粒体. 在裂解液选择、IPG胶条pH值范围、SDS-PAGE胶浓度及蛋白质上样量等方面对线粒体蛋白质双向电泳体系进行探索和优化,确立了一套适用于小麦小花高纯度完整线粒体的分离方法及其蛋白质双向电泳的技术体系. 结果表明,采用20%、24%和40% Percoll密度梯度和28% Percoll自形成密度高速离心体系,获得了有活性、高纯度且较完整的线粒体;经TCA-丙酮法提取蛋白,以7 mol/L尿素,2 mol/L硫脲,4% CHAPS(W/V),65 mmol/L DTT,0.5% IPG缓冲液(V/V),0.001% 溴酚蓝(W/V)裂解液溶解蛋白,采用17 cm,pH 4～7 IPG胶条和11% SDS-PAGE分离胶,上样量为160 μg,硝酸银染色法,更适合小麦小花线粒体蛋白质组双向电泳分离. 经PDQuest 2DE 8.0.1软件包统计分析,在2-DE图谱上分辨出约150个蛋白点,蛋白点清晰呈圆形,无横条纹干扰,这为利用双向电泳技术在亚细胞水平对线粒体进行蛋白质组学研究与分析奠定了基础,更为进一步分析研究线粒体与雄性不育的关系提供了理论与技术支撑.     

玉米T型细胞质雄性不育系与相应保持系线粒体蛋白质组中的差异蛋白

利用固相pH3—10梯度双向凝胶电泳．对玉米T型细胞质雄性不育系（T—CMS）及其相应保持系叶片（苗期、拔节期、孕穗期）,胚轴,胚根和花药（花粉母细胞减数分裂期、花粉粒小孢子单-双核期）线粒体蛋白质组中的差异蛋白进行分析。PDQuest2D图像软件分析表明,苗期和拔节期叶片约有150个蛋白质斑点,胚轴和胚根中可识别出150个线粒体蛋白质斑点,花药中约有100个斑点。利用MALDI—TOF—MS方法．运用MASCOT软件于NCBI进行数据查询．对T—CMS与相应保持系中存在的差异蛋白进行归属鉴定,在T—CMS中存在,保持系中缺失的线粒体蛋白质有：r40cl protein（胚轴中）,mature anther—specific protein,DNA—directed RNA polymerase 23kD subunit．hexokinaseⅡ和T—CMS中缺失而在保持系中存在的有：glutathione S—transferase．putative protein。其中T—CMS与相应保持系间．线粒体蛋白质组呈现出差异的组织有胚轴、胚根和小孢子单-双核期的花药。叶片的不同发育时期线粒体蛋白质组呈现明显变化．但T—CMS与保持系间没有差异。在小孢子单-双核期（花粉败育期）的花药中,T—CMS与保持系间线粒体蛋白质组出现明显差异,线粒体蛋白质组出现变异的时期与花粉败育时期相一致。     

杀雄剂SQ-1诱导小麦雄性不育花粉粒差异蛋白质组学研究

采用固相pH梯度/SDS-PAGE双向凝胶电泳对经杀雄剂SQ-1处理和未处理的小麦(Triticum aestivum)成熟期花粉总蛋白质进行了分离, 银染显色, 获得了分辨率和重复性较好的双向电泳图谱. 通过PDQuest 2DE图像软件的分析, 在等电点4～7之间可识别350个以上较为清晰的蛋白质点, 其中差异表达明显的蛋白质点数为21个. 将11个差异点采用基质辅助激光解析电离飞行时间质谱进行了肽质量指纹图谱分析, 采用Mascot软件在Swiss-prot数据库查询, 鉴定出了7个蛋白质, 它们分别是液泡转化酶、动力蛋白轻链TCTEX-1、锰超氧化物歧化酶、果糖-1,6-二磷酸醛缩酶、抗坏血酸过氧化物酶、凝集素蛋白激酶和一种未知功能的蛋白. 对已知蛋白的功能进行分析, 推测杀雄剂SQ-1诱导小麦雄性不育可能与能量代谢失衡、淀粉合成受抑制、活性氧积累、细胞凋亡以及花器官发育调节基因作用失控等有关.     

水稻红莲型细胞质雄性不育系小孢子不同发育时期花药总蛋白质比较分析

采用双向凝胶电泳对水稻红莲型细胞质雄性不育的不育系小孢子发育单核期和二核期花药总蛋白进行了分离,通过银染显色,获得了分辨率和重复性较好的双向电泳图谱,且单核期和二核期花药总蛋白质在双向电泳胶上分布的图谱十分相似。PDQuest 2DE图像分析软件在等电点(pI)3.0~10.0、分子量(M.W.)9.0~98.0 kD之间可识别约1 800个蛋白质点。比较分析发现单核期和二核期花药中共有241个差异表达的蛋白质点,其中仅在单核期中表达的点数为125,仅在二核期中表达的为13点;表现为表达量差异的105点,其中在二核期表达下调的点数为70点,表达上调的为33点。还对蛋白质点集中的区域(pI 4.5~8.0,M.W.25.0~70.0 kD)中的41个差异蛋白质点进行了分子量和等电点分析。     

中国武汉地区葎草花粉变应原蛋白质组分的双向电泳分析

应用蛋白质双向电泳的分析技术对武汉地区生长的主要过敏原———葎草(Humulus scandensLour.)花粉的蛋白质组分进行了分析。应用三氯乙酸法提取葎草花粉总蛋白质,通过等电聚焦和第二向SDS-聚丙烯酰胺凝胶电泳分析获得了完整的葎草花粉全蛋白质图谱。应用专业分析软件(Im ageM aster 2D)对电泳图谱分析表明:通过等电聚焦和第二向SDS-PAGE电泳,有122个不同的蛋白质组分被检测出来,并进一步确定每个蛋白质相应的分子量、等电点和相对含量。研究中获得的高分辨率的双向电泳图谱是我国葎草花粉变应原蛋白质第一张完整的蛋白质图谱,将为今后葎草花粉中致敏蛋白质的检测、分离、基因克隆和变应原的标准化奠定基础。     

番茄幼苗盐胁迫响应蛋白质组分析

采用营养液栽培,以盐敏感型番茄品种M82为试材,利用双向电泳(2-DE)研究盐胁迫处理下幼苗叶片蛋白质的表达谱,并采用基质辅助激光解析飞行时间串联质谱(MALDI-TOF/TOF-MS)技术进行差异蛋白质的分离及质谱鉴定。结果表明:(1)盐胁迫处理下,利用2-DE获得差异显著蛋白点20个,其中17个蛋白质点丰度上调表达,3个蛋白质点丰度下调表达。(2)通过质谱分析和蛋白质NCBInr数据库检索,共鉴定出19个差异蛋白,分别为果糖-二磷酸醛缩酶、S-腺苷甲硫氨酸合成酶、甘油醛-3-磷酸脱氢酶等及3个功能未知蛋白;这些鉴定出的差异蛋白质与能量代谢、光合作用、蛋白合成、氧化还原平衡等过程相关,暗示所分离鉴定的蛋白可能参与了番茄的盐胁迫响应,为进一步研究番茄抗逆机制奠定基础。     

Quantitative Proteomic Analysis of CMS-Related Changes in Honglian CMS Rice Anther

Honglian (HL) cytoplasmic male sterility (CMS) is one of the rice CMS types and has been widely used in hybrid rice production in China. The CMS line (Yuetai A, YTA) has a Yuetai B (maintainer line, YTB) nuclear genome, but has a rearranged mitochondrial (mt) genome consisting of Yuetai B. The fertility of hybrid (HL-6) was restored by restorer gene in nuclear genome of restorer line (9311). We used isotope-code affinity tag (ICAT) technology to perform the protein profiling of uninucleate stage rice anther and identify the CMS-HL related proteins. Two separate ICAT analyses were performed in this study: (1) anthers from YTA versus anthers from YTB, and (2) anthers from YTA versus anthers from HL-6. Based on the two analyses, a total of 97 unique proteins were identified and quantified in uninucleate stage rice anther under the error rate of less than 10%, of which eight proteins showed abundance changes of at least twofold between YTA and YTB. Triosephosphate isomerase, fructokinase II, DNA-binding protein GBP16 and ribosomal protein L3B were over-expressed in YTB, while oligopeptide transporter, floral organ regulator 1, kinase and S-adenosyl-l-methionine synthetase were over-expressed in YTA. Reduction of the proteins associated with energy production and lesser ATP equivalents detected in CMS anther indicated that the low level of energy production played an important role in inducing CMS-HL.     

Proteomic Analysis of Rice Plasma Membrane-associated Proteins in Response to Chitooligosaccharide Elicitors

Chitooligomers or chitooligosaccharides （COS） are elicitors that bind to the plasma membrane （PM） and elicit various defense responses. However, the PM-bound proteins involved in elicitor-mediated plant defense responses still remain widely unknown. In order to get more information about PM proteins involved in rice defense responses, we conducted PM proteomic analysis of the rice suspension cells elicited by COS. A total of 14 up- or downregulated protein spots were observed on 2-D gels of PM fractions at 12 h and 24 h after COS incubation. Of them, eight protein spots were successfully identified by MS （mass spectrography） and predicted to be associated to the PM and function in plant defense, including a putative PKN/PRK1 protein kinase, a putative pyruvate kinase isozyme G, a putative zinc finger protein, a putative MAR-binding protein MFP1, and a putative calcium-dependent protein kinase. Interestingly, a COS-induced pM5-like protein was identified for the first time in plants, which is a transmembrane nodal modulator in transforming growth factor-β（TGFβ） signaling in vertebrates. We also identified two members of a rice polyprotein family, which were up-regulated by COS. Our study would provide a starting point for functionality of PM proteins in the rice basal defense.     

Low temperature treatment at the young microspore stage induces protein changes in rice anthers

Male reproductive development in rice is very sensitive to various forms of environmental stresses including low temperature. A few days of cold treatment (<20 degrees C) at the young microspore stage induce severe pollen sterility and thus large grain yield reductions. To investigate this phenomenon, anther proteins at the early stages of microspore development, with or without cold treatment at 12 degrees C, were extracted, separated by two-dimensional gel electrophoresis, and compared. The cold-sensitive cultivar Doongara and the relatively cold-tolerant cultivar HSC55 were used. The abundance of 37 anther proteins was changed more than 2-fold after 1, 2, and 4 days of cold treatment in cv. Doongara. Among them, one protein was newly induced, 32 protein spots were up-regulated, and four protein spots were down-regulated. Of these 37 protein spots, we identified two anther-specific proteins (putative lipid transfer protein and Osg6B) and a calreticulin that were down-regulated and a cystine synthase, a beta-6 subunit of the 20 S proteasome, an H protein of the glycine cleavage system, cytochrome c oxidase subunit VB, an osmotin protein homologue, a putative 6-phosphogluconolactonase, a putative adenylate kinase, a putative cysteine proteinase inhibitor, ribosomal protein S12E, a caffeoyl-CoA O-methyltransferase, and a monodehydroascorbate reductase that were up-regulated. Identification of these proteins is available upon request. Accumulation of these proteins did not vary greatly after cold treatment in panicles of cv. Doongara or in the anthers of the cv. HSC55. The newly induced protein named Oryza sativa cold-induced anther protein (OsCIA) was identified as an unknown protein. The OsCIA protein was detected in panicles, leaves, and seedling tissues under normal growth conditions. Quantitative real time RT-PCR analysis of OsCIA mRNA expression showed no significant change between low temperature-treated and untreated plants. A possible regulatory role for the newly induced protein is proposed.